DE3690679C2 - Device for the production of polymeric annular products - Google Patents

Description

Technical field

The present invention relates to devices for Manufacture of polymeric annular products after Preamble of claim 1.

State of the art

It is a device for the production of polymer Products known that contains a hub to the one cylindrical body is arranged on which one Attaching blank from polymeric materials. This body is formed by sectors, some rigid and some other (moving) sectors over one of these sectors in radial and axial direction relative to the hub moving lever mechanism are connected to the hub. The hub is hollow and a plunger is axially movable therein arranged, the ends beyond the hub limits up to stops attached to the movable sectors are sufficient and these attacks to shift the sectors together. The plunger ends and the stops are at right angles to Hub axis arranged. The plunger helps to lower it an immovably arranged rod so that it the device for taking the annular product from Body moves. The body is with from above and below removable lids completed (see e.g. the SU copyright certificate 10 87 358).

Due to the horizontal design of the plunger ends and the Stops is a considerable force attack on the ram required to move the product from the moving sectors separate because this force is practically perpendicular to the direction of the radial tear force is directed.

Disclosure of the invention

The invention has for its object a direction for the production of polymeric ring-shaped products nissen to create the sectors and the plunger ne have such a constructive design, through which the Ab taking the ring-shaped finished products is facilitated and expanded the operating capabilities of the device will.

This object is achieved in that in a pre direction for the production of polymeric ring-shaped products nits containing a hub around which one through sectors formed cylindrical body is arranged, wherein some sectors rigid with the hub and the other be are connected movably relative to the hub, and one in the hub axially arranged tappet, which at its axial move through its towards the other sec ends extending towards the other sectors attached to move the latter relative to the hub ten attacks interacts, the attacks according to the invention ge on the other sectors with less than 90 ° inclination angle to the direction of movement of the ram are attached.

The plunger ends interacting with the stops are preferably bent at an angle that is equal to the angle of inclination of the stop.

Such a design of the plunger helps that at the other moving sectors at the time their detachment from the product under the action of an axial radial forces acting on the ram increased will.

The stop is preferably made in steps formed, and the first stage in the direction of movement of the interference ßels is significantly shorter longer length than that of the second stage and a significantly small one inclination angle less than that of the second stage, wherein are attached to the tappet ends rollers that with the Stages of the stop together during the ram movement  Act.

Such an execution of the stop enables it, at the beginning of the approach of the other moving seconds tors a significant one to demolish the other sectors generate radial force required by the product and then when the plunger moves over the second stage the stop the radial displacement of the other Sekto ren to enable great value, what is necessary is to reduce the size of the device significantly device.

It is advantageous to have the stop in the form of a groove train their surfaces with the rollers of the ram work together.

By such a design of the stops and of the plunger ends can be the sectors with that in the movement radial force arising from the tappet, both together men- as well as what the previous particular direction in the production of V-belts important is.

The embodiment carried out according to the present invention direction for the production of polymeric ring-shaped products nissen allows for a fairly simple construction design a slight decrease in finished products. Here is the force required to merge of the moving sectors significantly lower than that of the be knew devices.

description

Below is based on the description of concrete Embodiments of the invention under Reference to the drawings explained in more detail. In shows the drawings

Fig. 1 shows an apparatus for producing polyme ring-shaped products;

Figure 2 shows a device for the production of polyme ren annular products in position when the finished product is removed.

Fig. 3 is a section along the line III-III in Fig. 1;

Fig. 4 is a view in the direction of arrow A in Fig. 1;

Fig. 5 is a step-shaped stopper,

Fig. 6 shows a section according to line VI-VI in Fig. 5,

Fig. 7 shows a section according to line VII-VII in Fig. 2.

Embodiments of the invention

The device for the production of polymeric ring-shaped products contains a cylindrical body by 1 ( Fig. 1, 2), which is formed by four sectors 2, 3 . The opposing sectors 2 ( FIG. 3) are rigidly connected to a hub 4 , while the other sectors 3 are arranged to be movable relative to the Na 4 by an articulated lever mechanism 5 . The hub 4 is hollow and a plunger 6 ( FIG. 1) is inserted in its cavity. The plunger 6 has on opposite sides En the 7 , which extend to stops 8 , which are attached to the other sectors 3 (in the following description "Sekto ren 3 ").

The body 1 is closed with an upper 9 and a lower 10 end cover. The covers 9, 10 have ke-shaped projections 11 , which cooperate with corresponding recesses on the sectors 3 , whereby the sectors 3 can be precisely held when they are separated.

To produce a "C" (Fig. 2) to be able to repel without removal of the unte ren lid 10 upward, are in the lower lid 10 at the locations of the sectors 3 recesses 12 (FIG. 4) are provided. The width of the savings 12 is slightly narrower than the width H ( FIG. 3) of the sectors 3 , which is necessary to hold these sectors on the conical surface of each conical projection 11 ( FIG. 1) of the cover 10 .

The stops 8 are attached to the walls of the sectors 3 in smaller than 90 ° inclination angles a to the geometric axis 13 in the direction "D" of the plunger. 6 With the Anschlä gen 8 cooperating ends 7 of the plunger 6 are bent in egg nem angle α, the α the angle of inclination to strike 8 is the same, which at the sectors 3 at the time of their separation from the product "C" under the action ei ner a considerable radial force can be generated on the tappet 6 .

To generate a significant tear-off force and egg nes long travel of the sectors 3 , the stop 14 ( Fig. 5) can be step-shaped. The first step 15 has in the direction of movement "D" ( FIG. 1) of the plunger 16 ( FIG. 5) a significantly shorter length "1" ( FIG. 5) than the length "L" of the second step 17 . The angle of inclination α of the second stage 17 to the direction of movement "D" ( Fig. 1) of the plunger 16 is less than 90 ° and the angle of inclination α ₁ ( Fig. 5) of the first stage 15 is substantially smaller than the angle of inclination α of the second stage 17th

At the ends of the plunger 16 rollers 18 are attached, which interact in stages with the steps 15, 17 of the stop 14 during the radial movement of the plunger 16 . When the roller 18 cooperates with the second stage 17 of the stop 14 , the tappet 16 gains a large stroke, which is required to reduce the circumference of the body 1 ( FIG. 1). So that the sectors 3 with a radial force can not only be brought together but also moved apart, the stop 14 ( FIG. 6) must be designed as a T-shaped groove, the surfaces of which cooperate with the rollers 18 of the plunger 16 . This is particularly important for devices on which V-belts are manufactured because there is a need for strict radial movement of the sectors.

The device for the production of polymeric ring shaped products is operated as follows.

The device for producing polymeric ring-shaped products with a blank mounted thereon is fed for molding and vulcanization. After he followed vulcanization, the device is taken apart. The upper cover 9 is removed. The device is then lowered onto a rod 19 ( FIG. 2) which is guided through a bore 20 ( FIG. 1) in the hub 4 and acts on the tappet 6 to move it in the axial direction. The ends 7 of the plunger 6 move the Sekto ren 3 by interacting with the stops 8 . Since the stops 8 and the ends 7 are arranged at a smaller than 90 ° angle to the direction of movement "D" of the plunger 6 , there is a considerable radial force acting on the sectors 3 , as a result of the axial force acting on the plunger 6 , causing the sectors 3 can be separated from the product "C" . At this time, the sectors 3 on the levers 5 are moved toward the center of the device, thereby reducing the circumference of the body and releasing the product "C" as shown in Fig. 7. Then 10 are inserted into the grooves 12 of the lid, which pull the product "C" from the immovable sectors 2 upwards.

With a step-shaped configuration of the stop 14 , the forces when the sectors 3 approach each other are distributed as follows. When the plunger 16 cooperates with the rod 19 , the roller 18 first moves along the first stage 15 , which has a small angle of inclination α ₁ to the direction of movement “D” of the plunger 16 , thereby becoming substantial for the tearing off of the sectors 3 radial force required by product "C" . During the movement of the roller 18 along the second level 17, the sectors 3 shifting radial force is smaller, the path of the sectors 3 in the radial direction but is larger, whereby the order catch of the body 1 can be reduced considerably and thus the decrease of the product " C "is facilitated.

The formation of the stop 14 as a T-shaped groove, which cooperates with the rollers 18 attached to the ends of the plunger 16 , allows a radial force acting on the sectors 3 from the plunger 6 not only to be generated when these sectors approach, but also also to allow a radial force to attack the sectors 3 when they diverge during the rear stroke of the plunger 6 , which is particularly important for devices for the production of V-belts where the application of a strictly radial force is required and there is no possibility of the movable ones To hold sectors with the lid.

The tests carried out on the test samples of the Devices for producing wedge according to the invention Belts have shown that the decrease in products light, practically without the use of facilities by stat ten goes and carried out by the operator by hand can be.

The dead weight of the device proves to be sufficient to bring the sectors closer together gene (a self-collapsible embodiment).

Industrial applicability

It is appropriate to the present invention for the Manufacture of power timing belts to use.

It is also appropriate for the present invention to use the production of V-belts.

Claims (4)

1. Device for the production of polymeric ring-shaped products, comprising a hub ( 4 ) around which a cylindrical body formed by sectors ( 2, 3 ) is arranged by ( 1 ), the one sectors ( 2 ) with the hub ( 4 ) rigid and the other sectors ( 3 ) are movably connected relative to the hub ( 4 ), and a plunger ( 6 ) axially arranged in the hub ( 4 ), which during its axial movement due to its towards the sectors ( 3 ) extending ends ( 7 ) with the sectors ( 3 ) for moving the latter rela tively to the hub ( 4 ) attached stops ( 8 ) cooperating, characterized in that the stops ( 8 ) on the sectors ( 3 ) in small ren than 90 ° angles of inclination ( α ) to the direction of movement (D) of the plunger ( 6 ) are attached. 2. Device according to claim 1, characterized in that with the stops ( 8 ) cooperating ends ( 7 ) of the plunger ( 6 ) in a win angle ( α ), which is the inclination angle of the stop ( 8 ), are bent . 3. Device according to claim 1, characterized in that the stop ( 14 ) is step-shaped, the first step ( 15 ) in the direction of movement of the plunger ( 16 ) has a length (l) which is much smaller than the length ( L) of the second stage ( 17 ), and has an angle of inclination ( α ₁ ) which is much smaller than the angle of inclination ( α ) of the second stage ( 17 ), with rollers ( 18 ) at the ends of the plunger ( 16 ) are attached, which cooperate with the steps ( 15, 17 ) of the stop ( 14 ) during the movement of the plunger ( 16 ). 4. The device according to claim 3, characterized in that the stop ( 14 ) is in the form of egg ner groove, the surfaces of which cooperate with the rollers ( 18 ) of the plunger ( 16 ).